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- Title
NUMERICAL INVESTIGATION OF THE DYNAMICS OF MAGNETIZED CASSON FLUID FLOW OVER A PERMEABLE WEDGE SUBJECT TO DISSIPATION AND THERMAL RADIATIONS.
- Authors
GOUD, B. SHANKAR; REDDY, Y. DHARMENDAR; ADNAN
- Abstract
The streamline boundary layer Casson liquid flow via wedge inspired by magnetic field effects is considered in this study. The governing laws of Casson fluid are modified by adding the effects of radiative heat flux, viscous dissipation and the surface permeability. Afterward, the model is transformed into simplified form using similarity variables and then analyzed via numerical scheme. The significant influence of the physical parameters appeared due to acting magnetic field, radiative heat flux, dissipation function and Prandtl number is specially treated for the flow behavior and thermal transfer mechanism plotted and discussed in detail. Further, tabulated results are also provided to replicate the study in future and this model is validated with the date published in open literature and it is found that these results are accurate and aligned with existing results.
- Subjects
HEAT radiation &; absorption; FLUID flow; MAGNETIC field effects; HEAT transfer; HEAT flux; FLUID-structure interaction; PRANDTL number; BLAST effect
- Publication
Surface Review & Letters, 2024, Vol 31, Issue 7, p1
- ISSN
0218-625X
- Publication type
Article
- DOI
10.1142/S0218625X24500549